Deformation, fracture, and wear behaviours of C+N enhancing alloying austenitic steels

“…An empirical relation of SFE depending on C þ N content and C/N ratio, proposed by Lee et al [29] for Fe-18Cr-10Mn-CN alloys, reveals that the relative increase in SFE due to addition of C is larger than compared to N, while referring to a study by Reed and Austin [61] in Fe-20Cr-10Ni-CN steels. The proposed relationship is in good agreement with experimental SFE values for the present Fe-14Cr-16Mn-0.3C-0.3N steel and other Fe-Cr-Mn-CN alloys with higher Mn concentrations up to $ 19 wt% [62,63] and lower Cr contents to 42.5 wt% [64] (compare Table 2). The good agreement suggests that Cr and Mn may have only a small influence on the SFE in the ranges of 2.5-18 wt% Cr and 10-19 wt% Mn content.…”

Temperature effect on deformation mechanisms and mechanical properties of a high manganese C+N alloyed austenitic stainless steel

“…An empirical relation of SFE depending on C þ N content and C/N ratio, proposed by Lee et al [29] for Fe-18Cr-10Mn-CN alloys, reveals that the relative increase in SFE due to addition of C is larger than compared to N, while referring to a study by Reed and Austin [61] in Fe-20Cr-10Ni-CN steels. The proposed relationship is in good agreement with experimental SFE values for the present Fe-14Cr-16Mn-0.3C-0.3N steel and other Fe-Cr-Mn-CN alloys with higher Mn concentrations up to $ 19 wt% [62,63] and lower Cr contents to 42.5 wt% [64] (compare Table 2). The good agreement suggests that Cr and Mn may have only a small influence on the SFE in the ranges of 2.5-18 wt% Cr and 10-19 wt% Mn content.…”

Temperature effect on deformation mechanisms and mechanical properties of a high manganese C+N alloyed austenitic stainless steel

“…To answer these questions, Hadfield steel (X120Mn12) with a medium SFE 32 , i.e., 48 mJ/m 2 33 , was subjected to high speed pounding (HSP) 34 35 . The microstructural evolution of the steel during nanocrystallization was characterized by transmission electron microscopy (TEM) and high–resolution transmission electron microscopy (HRTEM).…”

Dislocation–Twin Boundary Interactions Induced Nanocrystalline via SPD Processing in Bulk Metals

“…These tiny holes make the matrix and wear debris combining more easily. Then a thick oxide layer will be formed with the wearing process [10][11][12][13][14][15]. Therefore, the worn oxide layer of J-M42 steel with more fine carbides is thicker than that of C-M42 steel.…”

Study on Friction and Wear Behaviors of M42 High Speed Steel